The Experts below are selected from a list of 3792 Experts worldwide ranked by ideXlab platform
R. Chaabane - One of the best experts on this subject based on the ideXlab platform.
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SMC (2) - Optimizing the supervision of Intelligent Instrument based distributed architectures
IEEE International Conference on Systems Man and Cybernetics, 1Co-Authors: A. Bouras, M. Staroswiecki, R. ChaabaneAbstract:The paper introduces the Intelligent Instrument concept and shows how it is possible to optimise the supervision of Intelligent Instrument based distributed architectures. In a first step, we show that the services proposed by the Intelligent Instruments can be organized, according to the constraints of the required application, into a "menu graph". From this graph, we deduce the application supervisory language, which contains all the high level requests satisfying the application constraints. In a second step, we find the optimal sequence of the supervisory language that transfers the system from a given steady state operating system to another one.
Ke Song - One of the best experts on this subject based on the ideXlab platform.
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Optimization of Echo Parameter in Intelligent Instrument Under the Condition of Numerical Stability
Cyber Security Intelligence and Analytics, 2020Co-Authors: Ke SongAbstract:The design of acquisition parameters is of great significance for Intelligent Instrument. In order to achieve better application of this method to formation fluid identification and reservoir evaluation, the observed echo amplitude and data kernel matrix are not affected by the diffusion coefficient and relaxation time. The FDTD method uses a set of finite difference equations to replace the Maxwell’s rotation equation, that is, the solution of the differential equations is replaced by the solution of the difference equations. This substitution is meaningful only when the convergence and stability of the discrete differential equations are explained. Compared with the transmission of some broadband information, the use of a specific feature structure can increase the degree of freedom Intelligent Instrument, and give more detailed description of the echo parameter that can be used. By analyzing the basic principle of Intelligent Instrument, this paper uses the FDTD method to explain the signal of the Instrument, and the simulation results are good.
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CSIA - Optimization of Echo Parameter in Intelligent Instrument Under the Condition of Numerical Stability
Advances in Intelligent Systems and Computing, 2019Co-Authors: Ke SongAbstract:The design of acquisition parameters is of great significance for Intelligent Instrument. In order to achieve better application of this method to formation fluid identification and reservoir evaluation, the observed echo amplitude and data kernel matrix are not affected by the diffusion coefficient and relaxation time. The FDTD method uses a set of finite difference equations to replace the Maxwell’s rotation equation, that is, the solution of the differential equations is replaced by the solution of the difference equations. This substitution is meaningful only when the convergence and stability of the discrete differential equations are explained. Compared with the transmission of some broadband information, the use of a specific feature structure can increase the degree of freedom Intelligent Instrument, and give more detailed description of the echo parameter that can be used. By analyzing the basic principle of Intelligent Instrument, this paper uses the FDTD method to explain the signal of the Instrument, and the simulation results are good.
A. Bouras - One of the best experts on this subject based on the ideXlab platform.
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Building Distributed Architectures by the Interconnection of Intelligent Instruments
IFAC Proceedings Volumes, 1998Co-Authors: A. Bouras, Marcel StaroswieckiAbstract:Abstract In this paper we present a generic Intelligent Instrument descriptive model and an aggregation mechanism which allows to model composite Instruments resulting from the interconnection of simple ones. The interoperability is defined as the possibility for the set of interconnected Instruments to meet the application constraints. The supervisory language of the overall distributed control structure is calculated
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How Can Intelligent Instruments Interoperate in an Application Framework? A Mechanism for Taking into Account Operating Constraints
IFAC Proceedings Volumes, 1997Co-Authors: A. Bouras, Marcel StaroswieckiAbstract:Abstract In this paper we present an Intelligent Instrument descriptive model and a mechanism to express at the operating level the application constraints. These two notions allow to define a necessary condition to anticipate the interoperability of a set of equipments in an application framework.
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SMC (2) - Optimizing the supervision of Intelligent Instrument based distributed architectures
IEEE International Conference on Systems Man and Cybernetics, 1Co-Authors: A. Bouras, M. Staroswiecki, R. ChaabaneAbstract:The paper introduces the Intelligent Instrument concept and shows how it is possible to optimise the supervision of Intelligent Instrument based distributed architectures. In a first step, we show that the services proposed by the Intelligent Instruments can be organized, according to the constraints of the required application, into a "menu graph". From this graph, we deduce the application supervisory language, which contains all the high level requests satisfying the application constraints. In a second step, we find the optimal sequence of the supervisory language that transfers the system from a given steady state operating system to another one.
M. Staroswiecki - One of the best experts on this subject based on the ideXlab platform.
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SMC (2) - Optimizing the supervision of Intelligent Instrument based distributed architectures
IEEE International Conference on Systems Man and Cybernetics, 1Co-Authors: A. Bouras, M. Staroswiecki, R. ChaabaneAbstract:The paper introduces the Intelligent Instrument concept and shows how it is possible to optimise the supervision of Intelligent Instrument based distributed architectures. In a first step, we show that the services proposed by the Intelligent Instruments can be organized, according to the constraints of the required application, into a "menu graph". From this graph, we deduce the application supervisory language, which contains all the high level requests satisfying the application constraints. In a second step, we find the optimal sequence of the supervisory language that transfers the system from a given steady state operating system to another one.
Du Guoping - One of the best experts on this subject based on the ideXlab platform.
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An Intelligent Instrument for measuring the dynamic parameters of groundwater
Nuclear Techniques, 2002Co-Authors: Du GuopingAbstract:An Intelligent Instrument was developed for measuring direction and velocity of the groundwater, permeability coefficient, hydraulic transmitting coefficient, static level, hydraulic gradient and flow direction of each layer. This intstrument can be widely applied for detecting seepage of abutment and river bank, exploitation of grounwater, conservation of water and soil, water surging in mine, survey of groundwater resource and environment protection etc.
